Jiangsu Key Laboratory of Environmental Science and Engineering, School of Environmental Science and Engineering, Suzhou University of Science and Technology, Suzhou 215009, China.
Department of Pathology, Zhejiang Cancer Hospital, Hangzhou 310022, China.
Ecotoxicol Environ Saf. 2018 Nov 30;164:243-252. doi: 10.1016/j.ecoenv.2018.08.027. Epub 2018 Aug 16.
β-Diketone antibiotics (DKAs) are widely used in human and veterinary medicine to prevent and treat a large variety of infectious diseases. Long-term DKA exposure to zebrafish can result in lipid metabolism disorders and liver function abnormalities. Based on our previous miRNA-seq analyses, miR-144 and miR-125b were identified as target genes regulating lipid metabolism. DKA-exposure at 12.5 and 25 mg/L significantly increased the expressions of miR-144 and miR-125b. The expression levels for the two miRNAs exhibited an inverse relationship with their lipid-metabolism-related target genes (ppardb, bcl2a, pparaa and pparda). Over-expression and inhibition of miR-144 and miR-125b were observed by micro-injection of agomir-144, agomir-125b, antagomir-144 and antagomir-125b. The over-expression of miR-144 and miR-125b enhanced lipid accumulation and further induced lipid-metabolism-disorder syndrome in F1-zebrafish. The expression of ppardb and bcl2a in whole-mount in situ hybridization was in general agreement with results from qRT-PCR and was concentration-dependent. Oil red O and H&E staining, as well as related physiological and biochemical indexes, showed that chronic DKA exposure resulted in lipid-metabolism-disorder in F0-adults, and in F1-larvae fat accumulation, increased lipid content, abnormal liver function and obesity. The abnormal levels of triglyceride (TG) and total cholesterol (TCH) in DKA-exposed zebrafish increased the risk of hyperlipidemia, atherosclerosis and coronary heart disease. These observations improve our understanding of mechanisms leading to liver disease from exposure to environmental pollution, thereby having relevant practical significance in health prevention, early intervention, and gene therapy for drug-induced diseases.
β-二酮类抗生素(DKAs)广泛用于人类和兽医医学,以预防和治疗各种传染病。斑马鱼长期暴露于 DKA 会导致脂质代谢紊乱和肝功能异常。基于我们之前的 miRNA-seq 分析,miR-144 和 miR-125b 被鉴定为调节脂质代谢的靶基因。在 12.5 和 25mg/L 的 DKA 暴露下,miR-144 和 miR-125b 的表达显著增加。这两个 miRNA 的表达水平与其脂质代谢相关靶基因(ppardb、bcl2a、pparAA 和 pparda)呈负相关。通过微注射 agomir-144、agomir-125b、antagomir-144 和 antagomir-125b 观察到 miR-144 和 miR-125b 的过表达和抑制。miR-144 和 miR-125b 的过表达增强了脂质积累,并进一步诱导 F1-斑马鱼出现脂质代谢紊乱综合征。全胚胎原位杂交的 ppardb 和 bcl2a 表达与 qRT-PCR 的结果基本一致,且呈浓度依赖性。油红 O 和 H&E 染色以及相关的生理和生化指标表明,慢性 DKA 暴露导致 F0 成鱼的脂质代谢紊乱,以及 F1 幼虫的脂肪积累、脂质含量增加、肝功能异常和肥胖。DKA 暴露的斑马鱼中甘油三酯(TG)和总胆固醇(TCH)的异常水平增加了患高脂血症、动脉粥样硬化和冠心病的风险。这些观察结果提高了我们对环境污染导致肝病的机制的理解,从而在健康预防、早期干预和药物诱导疾病的基因治疗方面具有相关的实际意义。
